6. Particle A is placed at position (3, 3) m, particle B is placed at (-3, 3) m, particle C is placed at (-3, -3) m, and particle D is placed at (3, -3) m. Particles A and B have a charge of –q and particles C and D have a charge of +2q.
a) Draw a properly labeled coordinate plane with correctly placed and labeled charges. ***q=(-5uC)*** (3 points).
b) Draw and label a vector diagram showing the electric field vectors at position (0, 0) m. ***q=(-5uC)*** (3 points).
c) Solve for the magnitude and direction of the net electric field strength at position (0, 0) m ***q=(+10uC) (7 points).
6. Particle A is placed at position (3, 3) m, particle B is placed at (-3,...
Two charged particles are placed near the origin of an xyz coordinate system. Particle 1 carries charge +q and is on the x axis at x= ± d. Particle 2 carries an unknown charge and is at an unknown location. The magnitude of the electric field at the origin is q/(2πε0d^2), and the electrostatic potential at the origin, relative to V = 0 at infinity, is +3q/(4πε0d). a) If particle 2 is on the x axis, what are its charge...
Two charged particles are placed along the x-axls. The first particle has a charge q+q and Is at the origin. The second has a charge q2-2q and is at x d 4.40 cm (a) Determine the finite vale of x (in cm) where the electric field is zero. cmm (b) Determine the smallest and largest finite values of x (in cm) where the electric potential is zero. (Note: Assume a reference level of potential V- 0 at r) smallest value...
56. Two particles carrying charges q- 4 HC and q2- 12HC are located 5 m apart. Choose a coordinate system where the first particle is at the origin, and the second is at x -5 m In this coordinate system, an electron sits at (2 m, -3 m) (a) Draw a diagram showing the vectors you need in order to determine the direction of the separate electric forces exerted on the electron by the particles. (b) Calculate the vector sum...
Two charged particles are placed along the x-axis. The first particle has a charge q1 = +q and is at the origin. The second has a charge q2 = −2q and is at x = d = 4.60 cm. Determine the finite value of x (in cm) where the electric field is zero. Determine the smallest and largest finite values of x (in cm) where the electric potential is zero. (Note: Assume a reference level of potential V = 0...
1. A particle of mass m and charge q is dropped from height of 3h above the ground. The particle starts from rest and its starting position is (x, y) (0,3h). At height 2h, the particle enters a uniform electric field of magnitude E pointing in the negative r direction. The magnitude of the force on the particle due to the electric field is qE. The particle exits the electric field at height h. A cup is placed at position...
2 3 4 ds Electric Field 2. Just like in question 1, a charged particle with charge qs 20 nC is placed at the origin. This is the "source particle". The charge on the source particle creates an electric field at every point in space around the particle. a. Use your answer in question la and the equation FE to determine the electric field vector (E) at position 1. Draw the electric field vector with its tail at position 1....
In the coordinate system shown at right, particle l with charge q1 = q where q = 5.6 μC, is located at coordinates (-a, 0) m, where a=7.4 m; particle 2 with charge q2 = 2q is located at coordinates (a, 0); particle 3 with charge q3=q is located at coordinates (0, a)Part (a) Enter an expression for the electric potential at the origin, V0, using the given symbolsPart (b) Solve for the numerical value of V0 in voltsPart (c)...
1. A particle of mass m and charge q is dropped from height of 3h above the ground. The particle starts from rest and its starting position is (x, y) = (0, 3h). At height 2h, the particle enters a uniform electric field of magnitude E pointing in the negative x direction. The magnitude of the force on the particle due to the electric field is qE. The particle exits the electric field at height h. A cup is placed...
I need help answering a and b. A +1 C charge is placed at position x=-2 m, while a +2 C charge is placed at position x=3 m. a) Find the net electric field at the origin. b) Find the net force (magnitude and direction) on a 1 nC test particle placed at the origin.
numbers 2 and 3 Show your works and units for full credits: (2 points) 13. A small 1.00-g plastic ball that has a charge q of 1.20 C is suspended by a string that has a length L of 1.00 m in a uniform electric field, as shown in the figure. If the ball is in equilibrium when the string makes an angle of θ-10° the vertical. What is the strength of the electric field E? (2 points) 14. Four...